The K3® IS Camera from Gatan, Inc. is the world’s first counting, large-format, and high-speed camera for in-situ microscopy.
Features:
K3® IS — The world’s only counting, large-format, and high-speed camera used for in-situ transmission electron microscopy (TEM). This true next-generation camera, with an unparalleled temporal resolution, gathers the ultimate in-situ data to expand the K3’s resolution revolution into material science.
Better
- Users can see their sample and not beam-induced artifacts
- Catch the best-quality, low-dose, in-situ video with the best-in-industry DQE and sensitivity
Faster
- It is possible to count single electrons at unparalleled speeds
- Greater than 3500 fps at 256 × 256 pixels
- Provided with 150 frames per second (fps) at the full field of view
- Reduce time to results with the best-in-market Gatan Microscopy Suite® (GMS) in-situ processing utilities and free offline tools
Larger
- Extend the field of view up to 14- or 24-megapixels, which is up to 1.65 times the size of the K2® IS camera
Illustrating the steps required in reducing the in-situ dataset in spatial dimensions
In-Situ Data Processing with GMS 3.4: In-Situ Data Management, Part 1 – Spatial Reduction
In-situ data processing with GMS 3.4: In-situ data management, Part 1—Spatial reduction. In this video, we demonstrate reducing the in-situ dataset size via cropping and binning in the spatial dimensions. Video Credit: Gatan Inc.
Elaborating data playback features with IS player
In-Situ Data Processing with GMS 3.4: In-Situ Video Playback
In-situ data processing with GMS 3.4: In-situ video playback. In this video, we demonstrate the data playback features available with IS Player within GMS. Video Credit: Gatan Inc.
Opening and presenting the in-situ dataset
In-Situ Data Processing with GMS 3.4: In-Situ Data Introduction
In-situ data processing with GMS 3.4: In-situ data introduction. In the first video of this tutorial series on processing in-situ data in Gatan Microscopy Suite (GMS) 3.4 software, we demonstrate opening an in-situ dataset with IS Player and present the file structure of an in-situ dataset. Video Credit: Gatan Inc.
Exhibiting extracting and saving new processed datasets from existing one
In-Situ Data Processing with GMS 3.4: Interacting with Live In-situ Data
In-situ data processing with GMS 3.4: Live processing with in-situ datasets. In this video, we demonstrate how to extract and save a new processed IS dataset from an existing IS dataset. Video Credit: Gatan Inc.
Creating *.mp3 files from an IS dataset
In-Situ Data Processing with GMS 3.4: Exporting Videos from In-Situ Datasets
In-situ data processing with GMS 3.4: Exporting videos from in-situ datasets. In this video we demonstrate how to create *.mp4 files from an IS dataset. Video Credit: Gatan Inc.
Performing existing live processing and visualization in DigitalMicrograph while playing back in-situ dataset
In-Situ Data Processing with GMS 3.4: Saving In-Situ Datasets
In-situ data processing with GMS 3.4: Saving in-situ datasets. In this video, we demonstrate how existing live processing and visualization in GMS, like the live FFT, can be performed while playing back in-situ datasets. Video Credit: Gatan Inc.
Cryogenic Transmission Electron Microscopy for Battery Materials and Interphases
Cryogenic Transmission Electron Microscopy for Battery Materials and Interphases Webinar
Cryogenic Transmission Electron Microscopy for Battery Materials and Interphases. Owing to recent developments in cryogenic TEM for materials science, it becomes possible to image Li-based battery materials in the TEM without side reactions and beam damage. The chemistry and nanostructure of the SEI can now be visualized and directly correlated to battery performance, offering unprecedented insight into electrochemical behavior and aging phenomena within batteries. In this talk, William Huang highlighted his recent work using cryo-TEM to understand SEI properties and failure modes in next-generation silicon and metallic lithium anodes. Video Credit: Gatan Inc.
Handling In-Situ Video Data in GMS 3
Handling In-Situ Video Data in GMS 3 Webinar
Handling In-Situ Video Data in GMS 3 Webinar. Modern CMOS-based TEM cameras are capable of generating data in quantities too large to manually analyze every frame. It is not uncommon to generate hundreds of GB of data in a single session if capturing data with high spatial and temporal resolution. The key challenge is finding and extracting from the complete data set the minimal range of data that contains the desired information so that this can be analyzed in detail to yield a scientific conclusion. Video Credit: Gatan Inc.
Low-Dose and High-Speed In-Situ TEM with the K3 IS Camera
Low-Dose and High-Speed In-Situ TEM with the K3 IS Camera Webinar
Low-Dose and High-Speed In-Situ TEM with the K3 IS Camera Webinar. The versatile K3 IS direct detection camera is allowing for in-situ characterization of material reactions with high ease of use and unhindered switching between low-dose and high-speed imaging. The large field of view with the K3 IS camera has enabled investigations on nanoparticle transformations and dynamics at a temperature within the environmental TEM, lithiation of battery anodes, and 4D STEM strain mapping of nanowires post in-situ testing. Video Credit: Gatan Inc.
Demonstrating the reduction in an in-situ dataset in time-dimension
In-Situ Data Processing with GMS 3.4: In-Situ Data Management, Part 2 – Temporal Reduction
In-situ data processing with GMS 3.4: In-situ data management, Part 2—Temporal reduction. In this video, we demonstrate reducing the in-situ dataset data size via cropping and combining frames in the time dimension. Video Credit: Gatan Inc.